4.6 Article

Through the Forming Process of Femtosecond-Laser Nanotextured Sheets for Production of Complex 3D Parts

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APPLIED SCIENCES-BASEL
卷 13, 期 22, 页码 -

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MDPI
DOI: 10.3390/app132212500

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ultra short pulses laser texturing; forming; high-throughput; continous texturing; pre-forming mechanical analysis

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This study aims to assess the feasibility of producing laser-functionalised 3D complex products through the forming of laser-treated thin metallic sheets. By optimizing the morphology of LIPSS and conducting mechanical tests, the impact of LIPSS on the mechanical properties of the foils was evaluated.
The use of ultra-short pulse lasers in the kW range, combined with an appropriate beam engineering approach, enables the achievement of high-throughput production of laser-functionalised surfaces. However, the manufacturing of complex parts still faces various challenges, such as difficulties in accessing regions with high aspect ratio shapes or intricate profiles, which often leads to the necessity of adapting the laser processing workstation to specific geometries. The forming process is a well-established technique for producing parts of any shape from metallic foils by imposing specific constraints. In this study, we aimed to assess the feasibility of producing laser-functionalised 3D complex products by the forming of laser-treated flat thin metallic sheets. Two-hundred micrometre-thick stainless-steel foils were textured with laser-induced periodic surface structures (LIPSS) through a roll-to-roll pilot line. First, we optimized the morphology of LIPSS. Subsequently, we conducted three types of mechanical tests on both laser-treated and untreated foils: standard tensile tests, fatigue tests, and cruciform specimen tests. We measured and compared parameters such as ultimate tensile strength, breaking strength, maximum elongation, and area reduction between specimens with and without LIPSS, all obtained from the same foil. Additionally, we utilized scanning electron microscopy (SEM) to compare the LIPSS morphology of laser-treated samples before and after mechanical tests.

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